SU920278A1 - Percussion pneumatic cylinder - Google Patents

Description

(54) SHOCK PNEUMOCYLINDER

one

The invention relates to mechanical engineering where percussion pneumatic actuators are used.

A shock pneumatic cylinder is known, comprising a housing, a channel connected to a pressure source, a piston with a rod and an intermediate cover with an opening, mounted in the housing to form accumulator, piston and rod cavities, mounted on the end of the piston on the side of the intermediate cover, a rigid plate coaxially a bore and a tapered ledge, and an elastic washer mounted on the intermediate cover, made of a polymeric material and equipped with a tapered ledge for cooperation with a rigid piston plate, m in the piston and the rod is made cavity 1.

A disadvantage of the known device is the impossibility of providing programmed dosing of the energy of the piston blows, which leads to a decrease in its function.

The purpose of the invention is to expand the functionality.

This goal is achieved by the fact that the pneumatic cylinder is provided with a distributor made in the form of a shaft with a hole and installed in the intermediate cover, and the channel connected to the pressure source ... is made in the intermediate cover and communicates with its hole.

5 FIG. 1 shows the impact pneumatic cylinder, the cut; in fig. 2 is a section A — A. FIG. one.

The gift pneumatic cylinder contains a housing 1 in which a channel 2 is connected to a pressure source (not shown). The housing 1 has a piston 3 with a rod 4, an intermediate cover 5 with an opening 6 with the formation of accumulating 7, piston 8 and rod 9 cavities. At the end 10 of the piston 3, a rigid plate 15 is mounted on 11 with a coaxial hole 12 and a tapered ledge 13. On the intermediate cover 5 there is an elastic washer 14 made of a polymeric material. The spring washer .14 is provided with a tapered step 15 for

20 interacting with the rigid plate 11 of the piston 3. In the piston 3 and the stem 4, a cavity 16 is formed.

channel 20 associated with a pressure source (not shown). In housing 1, channels 21 and 22 are provided, through which air is supplied and exhausted.

Impact pneumatic cylinder works as follows.

In the initial position, the piston 3 with the rod 4 is in its extreme upper position. In this case, the communication of the accumulating cavity 7 with the cavity 16 of the piston 3 is blocked by the shaft 18 of the distributor 17. The working stroke is performed as follows. Compressed air is supplied to the piston cavity 8. The piston 3 accelerates and simultaneously compressed air flows through channel 22 from the shptokovoy cavity 9. A special feature of the impact pneumatic cylinder at this stage is the presence of a force effect, compressed air when it flows out of the cavity 16 through coaxial an opening 12, which begins after the piston 3 is moved with the rod 4 by a certain amount from the intermediate cover 5. In the next stage of operation of the impact pneumatic cylinder, the accumulation cavity 7 and the cavity are filled and 16, respectively, through channels 2 and 20. The piston 3 accelerates with greater acceleration due to the additional supply of compressed air through channel 20. At the next moment, turning the shaft 18 distributes the bodies 17 and the accumulating cavity 7 communicates through the hole 6 of the intermediate cover 5 with the piston cavity 8 and the energy of the compressed air in the storage cavity 7 is transferred to the gap 3, as a result of which the gap 3 accelerates to its maximum speed. The peculiarity of the impact pneumatic cylinder at this stage is that the piston 3 is moved with the rod 4 by the force of compressed air flowing from the accumulating cavity 7 into the piston cavity 8, and also by connecting the channel 20 to the pressure source and by force, compressed air flowing from cavity 16 into piston cavity 8 through coaxial orifice 12 of rigid plate 11 piston 3.

After the end of the working stroke, the pressure in the piston cavity 8 is relieved. The shaft 18 of the distributor 17 returns to the initial position. Compressed air supply through the channel 20 is stopped. By supplying the compressed air to the rod cavity 9, the piston 3 returns to its original position. The impact pneumatic cylinder is ready for the next working cycle. Depending on the required impact energy of the piston 3 with the rod 4, channels 2, 20 and 21 are connected to the pressure source in different sequences.

Thus, the proposed impact pneumatic cylinder allows programmed dosing of impacts of equal energy at any stage of its operation, as well as dosing of various energy levels in the required sequence, which expands

functionality of a shock pneumatic cylinder.

Claims (1)

Invention Formula Impact pneumatic cylinder, comprising a housing, a channel associated with a pressure source, a piston with a rod and an intermediate cover with a hole, installed in the housing with the formation of accumulating, piston and rod cavities, mounted on the end face of the intermediate cover with a rigid plate with co-hole and a conic ledge, and an elastic washer mounted on an intermediate cover, made of a polymeric material and provided with a conical ledge for interaction with a rigid piston plate, wherein a cavity is made in the piston and rod, characterized in that, in order to expand its functionality, the pneumatic cylinder is equipped with a distributor made in the form of a shaft with a hole and installed in the intermediate cover, It is connected to the pressure source, made in the intermediate cover and communicated with its opening. Information sources, taken into account during the examination 1. Copyright certificate ССС1Р for application No. 2817200 / 25-06, cl. F 15 B 15/22, 09.09.79.